Practical Risk Analysis̮As a Tool for Minimizing Plastic Product Failure -- Avoiding the GIGO Syndrome -- Defect Analysis and High Density Polyethylene Pipe Durability -- Progressive Failure Analysis of Fiber Composite Structures -- Failure Analysis Models for Polyacetal Molded Fittings in Plumbing Systems -- Estimation of Time-Temperature-Collectives at Describing Aging of Polymer Materials -- Fractography of Metals and Plastics -- Fractography of ABS -- Attachment Design Analysis of a Plastic Housing Joined with Snap-Fits -- Joint Performance of Mechanical Fasteners under Dynamic Load -- Morphological Study of Fatigue Induced Damage in Semi-Crystalline Polymers -- Ductile Failure and Delayed Necking in Polyethylene -- Fatigue Behavior of Discontinuous Glass Fiber Reinforced Polypropylene -- Translating Failure into Success̮Lessons Learned from Product Failure Analysis -- Case Studies of Plastics Failure Related to Improper Formulation -- Case Studies of Inadvertent Interactions between Polymers and Devices in Field Applications -- Factors Affecting Variation in Gardner Impact Testing -- Standard Test Procedures for Relevant Material Properties for Structural Analysis -- The Influence of Multidimensional State of Stress on the Mechanical Properties of Thermoplastics -- The Influence of Morphology on the Impact Performance of an Impact Modified PP/PS Alloy -- Morphology and Mechanical Behavior of Polypropylene Hot Plate Welds -- Orientation Effects on the Weldability of Polypropylene Strapping Tape -- Activation Energies of Polymer Degradation -- Effects of Processing Conditions on the Failure Mode of an Aliphatic Polyketone Teropolymer -- Durability Study of Conductive Copper Traces within Polyimide Based Substrates -- The Role of Heat Affected Zone (HAZ) on Mechanical Properties in Thermally Welded Low Density Polyethylene Blown Film -- Plastics Failure Due to Oxidative Degradation in Processing and Service -- Comparing the Long Term Behavior of Tough Polyethylenes by Craze Testing -- Crack Propagation in Continuous Glass Fiber/Polypropylene Composites -- Freeze-Thaw Durability of Composites for Civil Infrastructure -- Temperature-Moisture-Mechanical Response of Vinyl Ester Resins and Pultruded Vinyl Ester/e-glass Laminated Composites -- Fracture Behavior of Polypropylene Modified with Metallocene Catalyzed Polyolefin -- Mechanical Performance of Polyamides with Influence of Moisture and Temperature -- Shelf Life Failure Prediction Considerations for Irradiated Polypropylene Medical Devices -- Environmental Stress Cracking of ABS IIRadiation Resistance of Multilayer Films by Instrumented Impact Testing -- Mechanical Behavior of Fabric Film Laminates -- Determining Etch Compensation Factors for Printed Circuit Boards -- Estimation of Long-Term Properties of Epoxies in Body Fluids -- Aspects of the Tensile Response of Random Continuous Glass/Epoxy Composites -- Residual Stress Development in Marine Coatings under Simulated Service Conditions -- Evaluation of a Yield Criteria and Energy Absorbing Mechanisms of Rubber Modified Epoxies in Multiaxial Stress States -- Design Aids for Preventing Brittle Failure in Polycarbonate and Polyetherimide -- Effect of Scale on Mechanical Performance of PMMA -- Defect Cost Analysis -- 10 Common Pitfalls in Thin-Wall Plastic Part Design -- Strategies for the Evaluation of Weathering-Induced Failure of Polymers.
0
This book contains analysis of reasons that cause products to fail. General methods of product failure evaluation give powerful tools in product improvement. Such methods, discussed in the book, include practical risk analysis, failure mode and effect analysis, preliminary hazard analysis, progressive failure analysis, fault tree analysis, mean time between failures, Wohler curves, finite element analysis, cohesive zone model, crack propagation kinetics, time-temperature collectives, quantitative characterization of fatigue damage, and fracture maps. Methods of failure analysis are critical to for material improvement and they are broadly discussed in this book. Fractography of plastics is relatively a new field which has many commonalities with fractography of metals. Here various aspects of fractography of plastics and metals are compared and contrasted. Fractography application in studies of static and cycling loading of ABS is also discussed. Other methods include SEM, SAXS, FTIR, DSC, DMA, GC/MS, optical microscopy, fatigue behavior, multiaxial stress, residual stress analysis, punch resistance, creep-rupture, impact, oxidative induction time, craze testing, defect analysis, fracture toughness, activation energy of degradation. Many references are given in this book to real products and real cases of their failure. The products discussed include office equipment, automotive compressed fuel gas system, pipes, polymer blends, blow molded parts, layered, cross-ply and continuous fiber composites, printed circuits, electronic packages, hip implants, blown and multilayered films, construction materials, component housings, brake cups, composite pressure vessels, swamp coolers, electrical cables, plumbing fittings, medical devices, medical packaging, strapping tapes, balloons, marine coatings, thermal switches, pressure relief membranes, pharmaceutical products, window profiles, and bone cements.
Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.